Related papers: On the optimality of the radical-pair quantum compass

On the optimality of the radical-pair quantum compass

URL: http://arxiv.org/abs/2401.02923v1
Date: Fri, 5 Jan 2024 18:01:47 GMT
Title: On the optimality of the radical-pair quantum compass
Authors: Luke D. Smith, Jonas Glatthard, Farhan T. Chowdhury, Daniel R. Kattnig
Abstract summary: We investigate the limits of inferring geomagnetic field directions from radical-pair spin dynamics. We probe the quantum Fisher information and associated Cram'er--Rao bound in spin models of realistic complexity. Overall, the comparison provides insight into processes honed by nature to realise optimality.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Quantum sensing enables the ultimate precision attainable in parameter estimation. Circumstantial evidence suggests that certain organisms, most notably migratory songbirds, also harness quantum-enhanced magnetic field sensing via a radical-pair-based chemical compass for the precise detection of the weak geomagnetic field. However, what underpins the acuity of such a compass operating in a noisy biological setting, at physiological temperatures, remains an open question. Here, we address the fundamental limits of inferring geomagnetic field directions from radical-pair spin dynamics. Specifically, we compare the compass precision, as derived from the directional dependence of the radical-pair recombination yield, to the ultimate precision potentially realisable by a quantum measurement on the spin system under steady-state conditions. To this end, we probe the quantum Fisher information and associated Cram\'er--Rao bound in spin models of realistic complexity, accounting for complex inter-radical interactions, a multitude of hyperfine couplings, and asymmetric recombination kinetics, as characteristic for the magnetosensory protein cryptochrome. We compare several models implicated in cryptochrome magnetoreception and unveil their optimality through the precision of measurements ostensibly accessible to nature. Overall, the comparison provides insight into processes honed by nature to realise optimality whilst constrained to operating with mere reaction yields. Generally, the inference of compass orientation from recombination yields approaches optimality in the limits of complexity, yet plateaus short of the theoretical optimal precision bounds by up to one or two orders of magnitude, thus underscoring the potential for improving on design principles inherent to natural systems.

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